This paper describes the implementation and evaluation of a real-time, centralized spectrum monitoring and alert system. Such a system can be used to support emerging spectrum sharing solutions that use a centralized controller to mediate tiered access to spectrum. These controllers rely on realtime awareness of spectrum activity. In addition to describing the architecture and prototype implementation of this real-time monitoring system, we propose a test method to measure the latency of detecting a spectrum occupancy event. This latency is measured as the time from when the event (e.g., a signal transmission) begins to when an alert of that event is delivered to a subscribed client. We used this test method to measure the latency of two different sensor implementations in conjunction with our spectrum occupancy server and found the 95th percentile of latency to be under 80 ms in both cases, plus the network transmission delays of any wide area network involved.
[1]
Petri Ahokangas,et al.
Spectrum sharing using licensed shared access: the concept and its workflow for LTE-advanced networks
,
2014,
IEEE Wireless Communications.
[2]
Michael R. Souryal,et al.
An overview of the NTIA/NIST spectrum monitoring pilot program
,
2015,
2015 IEEE Wireless Communications and Networking Conference Workshops (WCNCW).
[3]
Jeffery A. Wepman.
RF Sensors for Spectrum Monitoring Applications: Fundamentals and RF Performance Test Plan
,
2015
.
[4]
Ben Y. Zhao,et al.
Towards commoditized real-time spectrum monitoring
,
2014,
HotWireless@MobiCom.
[5]
Mani B. Srivastava,et al.
An experimental study of network performance impact of increased latency in software defined radios
,
2007,
WinTECH '07.